KCD/MDEA/TA三元引发剂引发丙烯酸酯/液晶复合体系光聚合动力学

采用配有441.6 nm滤光片的光差示扫描量热仪研究了3,3'-羰基双(7-二乙胺香豆素)(KCD)/N-甲基二乙醇胺(MDEA)/2-(4-甲氧苯基)-4,6-双(三氯甲基)-1,3,5-三嗪(TA)三元引发剂引发丙烯酸酯/液晶复合体系光聚合动力学行为. 结果表明, 在KCD/MDEA复合引发剂中添加TA, 显著提高了丙烯酸酯/液晶复合体系的最大光聚合速率[R_p(max)]和单体转化率, 当TA质量分数为0.5%时, 体系的R_p(max)和单体转化率分别提高了100%和69%. 同时, 随着光照强度的增加, 该体系的R_p(max)和单体转化率呈增大的趋势, 当光强从1.5 mW/cm⁺²提高到35.2 mW/cm⁺²时, 其R_p(max)和最终单体转化率分别提高了2.5和2.8倍.     

离子液体对甲基丙烯醛氧化酯化反应的影响

异丁烯氧化制备甲基丙烯酸甲酯(MMA)是一条极具优势、清洁高效的工艺技术路线.但甲基丙烯酸甲酯极易聚合^[1],故异丁烯三步法及传统的丙酮氰醇法均在酯化过程中加入对苯二酚、对羟基苯甲醚、2,4-甲基-6-叔丁基苯酚等有机物作为阻聚剂^[2].而甲基丙烯醛直接氧化酯化为MMA时,碱性和加热的反应条件使MMA更易聚合^[3].因而防止MMA在反应过程中的聚合成为工艺技术的关键问题.本文在甲基丙烯醛一步氧化酯化生成MMA的反应体系中添加离子液体1-丁基-3-甲基咪唑六氟磷酸盐([bm im]PF₆),结果表明,该离子液体既能提高MMA的选择性还有效防止MMA的聚合.     

α-羟基-α-烷基苯乙酮引发MMA光聚合的研究

本文研究了两种α-羟基-α-烷基苯乙酮类的光敏引发剂(α-羟基-α,α-戊撑-苯乙嗣I^-184和α-羟基-α,α-二甲基-对-异丙基-苯乙酮D-1116)引发MMA光聚合的反应。结果表明,它们具有和安息香醚类相类似的效果,聚合速度R_p和引发剂浓度的0.4次方成正比,K_p/K_t^1/2值为0.054(I^-184)和0.053(D-1116),而溶剂极性的影响很小。这类光敏引发剂适用于引发丙烯酸酯类的光聚合反应,并具有色稳定性好的优点。     

樟脑醌/乙二醇-3-吗啡啉基丙酸酯甲基丙烯酸酯引发牙科复合树脂的光聚合动力学研究

采用Photo-DSC研究了樟脑醌(CQ)/乙二醇-3-吗啡啉基丙酸酯甲基丙烯酸酯(EGMPM)可见光引发牙科复合树脂聚合的动力学过程.考察了CQ浓度、EGMPM浓度以及光强对牙科修复复合树脂光聚合动力学的影响.结果表明:增加引发体系的浓度和增加光强都可以增加反应速率和转化率;同时实验结果验证了Rp∝(I₀[CQ][EGMPM])^1/2的动力学关系.     

可见光照射下ATRP法合成高分子量聚丙烯腈

可见光下,以α-溴苄基乙酸乙酯为引发剂,采用ATRP法合成了高分子量聚丙烯腈（PAN, M_n,GPC/2.5=8.6×10⁴ g·mol^-1, M_w/M_n=1.24）,转化率95%;以Ir(ppy)₃为催化剂,PAN-Br为大分子引发剂,与丙烯酸丁酯(BA)聚合,合成了PAN-b-PBA嵌段共聚物,其结构经¹H NMR和GPC确证。研究了Ir(ppy)₃催化聚合体系的动力学行为。结果表明：该体系的聚合行为具有典型的“活性”特征。     

B4O分子异构化稳定性的理论研究

采用CCSD(T)/6-311+G(2df)//B3LYP/6-311+G(d)方法, 系统研究了B₄O体系各个异构体的结构和能量, 以及重要异构体的解离和异构化稳定性. 结果表明, 单态平面三角形含-BO单元的异构体cB₃-BO ¹1能量最低, 其次是带状的异构体B₄O ¹2(10.9 kJ/mol), 并且¹1和¹2结构都具有良好的动力学稳定性. 因此对于B₄O体系, ¹1和¹2都是有可能存在的. 而文献报道的三态直线型结构BBBBO(146.0 kJ/mol)的能量比异构体¹1和¹2高得多.     

修饰NADH模拟物的金属-有机三元环光催化制氢

将含有不同还原型烟酰烟腺嘌呤二核苷酸(NADH)活性中心模拟物的有机配体H₂L¹和H₂L²与钴离子配位自组装获得2例具有氧化还原活性且带有正电荷的金属-有机大环Co-L¹和Co-L²。选择阴离子型钌基光敏剂[Ru(dcbpy)₃]^4-(dcbpy=2,2′-联吡啶-4,4′-二羧酸)作为光敏中心,金属-有机大环结构作为质子还原催化剂,通过静电作用力将光敏中心封装在其空腔内部以加速光诱导电子转移(PET)过程,构建了人工光合成体系并应用于光解水制氢研究。相比于未修饰NADH模拟物的金属-有机大环Co-L³以及未修饰NADH模拟物但配位环境相同的单核催化剂Co-L⁴,由Co-L¹和Co-L²构建的金属-有机大环主客体超分子体系的光催化产氢效率分别提高1.6和6倍,可能是由于NADH活性中心模拟物的引入以及主客体超分子体系的形成有利于光敏中心与催化中心之间的光致电子转移过程。     

一种新型香豆素酮可见光敏化染料的合成及其光引发性质的研究

高效的可见光光敏引发体系是目前光聚合研究中的重要领域.3,3′-二(7-二乙胺基)香豆素酮(R)已被公认为一种高效的可见光聚合敏化染料,并可以与Ar⁺激光488 nm波长匹配.本文新合成了一种染料3-(4-二乙胺基-苯丙烯酰基)-7-二乙胺基香豆素(S).实验发现在普通碘钨灯照射下,S/邻氯六芳基双咪唑(HABI)体系具有比已有高效染料R/HABI体系更快的光漂白速度和更高的引发聚合效率,是一种新型高效的可见光光敏聚合引发体系.而且S在不同溶剂中的最大吸收波长在452～489 nm之间,比R红移16～30 nm,因此该体系可以更好地与Ar⁺ (488 nm)激光器匹配.本文对该染料的光敏化机理进行了探讨.     

1,3-二(炔丙基氧)苯与4,4'-二叠氮甲基联苯的聚合反应及聚合物性能的研究

研究了1,3-二(炔丙基氧)苯(BPOB)与4,4'-二叠氮甲基联苯(DAMBP)的本体聚合行为. 核磁共振氢谱(¹H NMR)表征了聚合物的结构, 通过傅立叶红外技术(FT-IR)观察了反应过程中的基团变化情况, 采用差示扫描量热技术(DSC)研究了聚合反应动力学, 在较低温度(80 ℃)下二元叠氮与二元炔发生了1,3-偶极环加成聚合反应, 生成了主链含三唑环的聚合物; 利用Kissinger法和Crane法处理得到了反应的动力学参数: 反应级数为0.92, 反应活化能E_a为79.8 kJ• mol^－1, 频率因子A为1.26×10¹⁰ min^－1. 利用凝胶渗透色谱(GPC)、动态热机械分析(DMA)和热重分析方法(TGA)研究了聚合产物的性能. 结果表明, 聚合物的数均分子量达4.22×10⁴, 聚合物有较高的玻璃化转变温度和良好的热稳定性, 玻璃化转变温度达到131 ℃, 热分解温度(T_d5)达355 ℃     

双光子吸收聚合引发剂EPVPVC的合成和非线性光学性质的研究

合成了一个新的双光子吸收聚合引发剂,9-乙基-3-{2-[4-(2-吡啶基-4-乙烯基)-苯基]-乙烯基}-9氢咔唑 (EPVPVC),用¹H NMR谱、¹³C NMR谱和元素分析进行了表征.测试了紫外吸收光谱、单光子荧光光谱、单光子荧光寿命、单光子荧光量子产率和双光子荧光光谱.量化计算结果表明,EPVPVC的双光子吸收截面为56.6×10^-50 cm⁴·s·photon^-1.在780 nm的飞秒脉冲激光激发下,EPVPVC发出较强的上转换荧光,荧光峰位于536 nm.用EPVPVC做引发剂,加入丙烯酸酯型齐聚物(cN120C80),在脉冲宽度为200 fs,重复频率为76 MHz,中心波长为780 nm 飞秒脉冲激光下,制作了一个三维周期性微结构.在理论计算的基础上,定性地探讨了其可能的聚合机理.     

DYE-SENSITIZED PHOTOLYSIS OF o-Cl-HEXAARYLBIIMIDAZOLE AND PHOTOPOLYMERIZATION KINETICS STUDY OF THE LONG WAVE-LENGTH DYE/HEXAARYLBIIMIDAZOLE SYSTEMS*

o-Chloro-hexaarylbiimidazole (o-Cl-HABI) can be sensitized efficiently by the dyes 1-ethyl-3'-methyl thiacyaninebromide (C 1), 3,3'-diethyl thiacarbocyanine iodide (C 2), and cyclopentanone 2,5-bis[2-(1,3-dihydro-1,3,3-trimethyl-2H-indol-2-ylidene)ethylidene] (C 3) through electron transfer proceses. When exposed to a xenon lamp (filtered by Pyrex glass),the photosensitive systems composed of o-Cl-HABI and the above dyes can produce free radicals which initiate thepolymerization of MMA. The photopolymerization kinetics equation was obtained for the o-Cl-HABI/C2 system, R_p=K [C2]~(0.75)[o-Cl-HABI]~(0.44)[MTA]~(0.12)[MMA]~(10). A comparison of the influence of different dyes on the conversion of MMA photopolymerization was conducted.     

PHOTOPOLYMERIZATION OF MMA INITIATED BY CYANINE DYE AND HEXAARYLBIIMIDAZ0LE

The photoinitiating system composed of 1-ethyl-3'-methylthiacyanine bro-mide (C-I), 2-chlorohexaarylbiimidazole (o-Cl-HABI) and 3-mercapto-4-methyl-4H-1, 2, 4-triazole (MTA), which act as sensitizer, initiator and hydrogen-donor respectively, can beused to initiate the polymerization of methyl methacrylate (MMA). The kinetic study wascarried out in trichloromathane solution at 30℃ by using dilatometry. The relation be-tween the polymerization rate and the concentrations of C-I, o-Cl-HABI, MTA and MMAwas studied.     

有机二硫化物引发MMA光聚合的研究

本文对各种有机二硫化物引发甲基丙烯酸甲酯(MMA)的光聚合反应进行了动力学研究,实验结果表明,二硫化物的结构对聚合速度R_p有很大影响,各种二硫化物的引发反应活性可以排列如下:(p-CH₃C₆H₄S)₂>(t-C₄H₉S)₂>(C₆H₅CH₂S)₂,(n-C₁₂H₂₅S)₂和((C₂H₅)₂NC₂H₄S)₂。二甲苯二硫化物(DMDS)引发反应的效果可以和安息香醚类相比拟。发现R_p和溶剂的性质有很大关系,并且和[MMA]以及[DMDS]^0.1(N₂气氛下)或[DMDS]^0.2(O₂气氛下)成正比,测得的DMDS的单线态和三线态能量分别为E_s72.2kcal/mol和E_T 57.3kcal/mol,它们比一般烯类单体的能量低,这说明DMDS适于用作烯类光聚合的引发剂。从所得结果讨论了引发聚合的反应机理。     

Isospecific polymerizations of alkyl methacrylates with a bis(alkyl)Yb complex and formation of stereocomplexes with syndiotactic poly(alkyl methacrylate)s

Yb[C(SiMe₃)₃]₂ initiates the living polymerization of methyl methacrylate (MMA) at −78°C to give the polymer with M_n of 51.0×10⁴ (M_w/M_n=1.1) and high isotacticity (97%) in a quantitative yield. Mixing of the acetone solution of resulting polymer (M_n=16.3×10⁴) with the acetone solution of syndiotactic poly(MMA) (M_n=15.7×10⁴) prepared by the (C₅Me₅)₂SmMe(THF) initiator produces desired stereocomplex in high yield bearing very high T_m whose tensile modulus is higher than the respective isotactic and syndiotactic poly(MMA)s. Yb[C(SiMe₃)₃]₂ also generated isotactic (98%) poly[2-(dimethylamino)ethyl methacrylate] (DMEMA), and (C₅Me₅)₂SmMe(THF) affords the syndiotactic (97%) polymer in high yields. The combination of isotactic poly(MMA)-block-poly(DMEMA) (97/3) and syndiotactic poly(MMA)-block-poly(DMEMA) (97/3) provides the amphiphathic stereocomplex. In sharp contrast to the catalysis of Yb[C(SiMe₃)₃]₂ in toluene, the addition of THF or HMPA resulted in the formation of syndio-rich poly(MMA).     

Kinetics of ring-opening polymerization of octamethylcyclotetrasiloxane in microemulsion

Polysiloxane latexes were prepared by microemulsion polymerization of octamethylcyclotetrasiloxane(D4) in the absence of co-emulsifier with octadecyl trimethyl ammonium chloride as a cationic emulsiner and potassium hydrate as an initiator.The particle size was determined by the dynamic light scattering(DLS) technique and the reaction rates of the polymerization were discussed.Furthermore,the kinetics was studied by an initial-rate method,and the effects of the monomer,emulsiner and initiator concentrations and the temperature on polymerization conversions were investigated.From the kinetic results,the rate of polymerization,R_p at 80 ℃ can be expressed as R_p = k[D4]~(0.79)[OTAC]~(0.64)[KOH]~(0.38) and the apparent activation energy(E_a),which was determined by half-period method,is 95.32 kJ mol~(-1).     

过硫酸钾-脲氧化还原引发下的丙烯酰胺水溶液聚合

为制备高分子量聚丙烯酰胺(PAM),对其引发体系,尤其是对氧化还原引发做了许多探索^[1]。     

电荷转移聚合——酚噻嗪及其衍生物引发丙烯腈光聚合

电荷转移引发的聚合近年来受到人们的广泛注意,许多电子给体,如芳香族的胺、醚、硫醚以及含氮芳杂环化合物,都可引发丙烯腈、甲基丙烯酸甲酯等负性单体光聚合,研究表明,其聚合都是通过电荷转移机制引发的^[1-3]。     

THE KINETICS OF THE DECOMPOSITION OF CYCLOHEXYL HYDROPEROXIDE IN THE PRESENCE OF VANADYL DIBENZOYLMETHANE

The kinetics of the decomposition of cyclohexyl hydroperoxide(CHHP) in benzene catalyzed by vanadyl dibenzoylmethane[V0(DBM).,] has been studied.It was found that the products of decomposition of CHHP were cyclohexanol and cyclohexanone,which are produced in about equimolar amount,and the product cyclohexanol obviously inhibited the decomposition of CHHP.The kinetics data can be satisfactorily described by the following equation (with [CHHP]0>>[VO(DBM)2]0)R0=kK[CHHP]0[VO(DBM)2]0/(1+k[CHHP]0)This is the kinetic evidence for the formation of a catalyst-hydro-peroxide intermediate.In the equation K is the stability constant of the catalyst-hydroperoxide intermediate complex;k is the rate constant for the decomposition of the complex.The rate constant K at 500℃ may be expressed as follows:k=1.9×108exp(-53.7×103/RT)S-1 with the activation energy Ea=53.7kJ mol-1     

Proton transfer reactions from N-H acid [5,10,15,20-tetrakis(pentafluorophenyl)-21-H, 23-H-porphyrin] to strong bases in acetonitrile

Deprotonation of 5,10,15,20-tetrakis(pentafluorophenyl)-21-H, 23-H-porphyrin (PhF₅PorH₂) by various bases has been studied by ¹H NMR and kinetic methods. The kinetic parameters in acetonitrile were defined for proton transfer reactions yielding [NH]⁺ protonated bases and [NHN]⁻ anions with intramolecular hydrogen-bonded chains.     

电荷转移引发聚合——酚噻嗪引发丙烯腈光聚合研究

本文研究了酚噻嗪(PTZ)引发丙烯腈(AN)的光聚合。测定了聚合速率R_p=K[AN]^1.47[PTZ]^0.41及活化能E_α=7.1千卡/摩尔。从PTZ与AN在光照下形成激基复合物的机制讨论了引发聚合机理。